CT Differentiation of Anthracofibrosis from Endobronchial Tuberculosis
The purpose of this study was to use CT to differentiate anthracofibrosis from endobronchial tuberculosis (TB), both of which are major causes of benign bronchostenosis. We retrospectively reviewed the clinical and CT findings of 49 patients with anthracofibrosis and 35 patients with endobronchial T...
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| Published in | American journal of roentgenology (1976) Vol. 191; no. 1; pp. 247 - 251 |
|---|---|
| Main Authors | , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Leesburg, VA
Am Roentgen Ray Soc
01.07.2008
American Roentgen Ray Society |
| Subjects | |
| Online Access | Get full text |
| ISSN | 0361-803X 1546-3141 1546-3141 |
| DOI | 10.2214/AJR.07.2161 |
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| Abstract | The purpose of this study was to use CT to differentiate anthracofibrosis from endobronchial tuberculosis (TB), both of which are major causes of benign bronchostenosis.
We retrospectively reviewed the clinical and CT findings of 49 patients with anthracofibrosis and 35 patients with endobronchial TB diagnosed on the basis of bronchoscopic, microbiologic, and pathologic findings. Forty-five patients with anthracofibrosis and 32 patients with endobronchial TB had bronchostenosis on CT and were enrolled in the analysis. Nine (20%) of 45 patients with anthracofibrosis had coexistent active TB (two, endobronchial TB; six, pulmonary TB; one, TB pleurisy), and 13 (29%) had pulmonary infections other than TB. Two patients with anthracofibrosis and coexistent endobronchial TB were excluded from the analysis. The CT findings were analyzed with emphasis on the pattern, distribution, and location of bronchostenosis and the number of pulmonary lobes involved.
Anthracofibrosis was more common than endobronchial TB among elderly patients (p < 0.05). Statistically significant findings on CT were the pattern of bronchostenosis, presence of main bronchus involvement, and number of pulmonary lobes involved (p < 0.05). Bronchostenosis with anthracofibrosis usually involves multiple lobar or segmental bronchi. The main bronchus, however, tends to be preserved in anthracofibrosis. Most cases of endobronchial TB involve one lobar bronchus and the ipsilateral main bronchus with contiguity in extent.
Anthracofibrosis can be differentiated from endobronchial TB on CT. Furthermore, CT is helpful in the diagnosis of anthracofibrosis before bronchoscopy is performed. |
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| AbstractList | The purpose of this study was to use CT to differentiate anthracofibrosis from endobronchial tuberculosis (TB), both of which are major causes of benign bronchostenosis.
We retrospectively reviewed the clinical and CT findings of 49 patients with anthracofibrosis and 35 patients with endobronchial TB diagnosed on the basis of bronchoscopic, microbiologic, and pathologic findings. Forty-five patients with anthracofibrosis and 32 patients with endobronchial TB had bronchostenosis on CT and were enrolled in the analysis. Nine (20%) of 45 patients with anthracofibrosis had coexistent active TB (two, endobronchial TB; six, pulmonary TB; one, TB pleurisy), and 13 (29%) had pulmonary infections other than TB. Two patients with anthracofibrosis and coexistent endobronchial TB were excluded from the analysis. The CT findings were analyzed with emphasis on the pattern, distribution, and location of bronchostenosis and the number of pulmonary lobes involved.
Anthracofibrosis was more common than endobronchial TB among elderly patients (p < 0.05). Statistically significant findings on CT were the pattern of bronchostenosis, presence of main bronchus involvement, and number of pulmonary lobes involved (p < 0.05). Bronchostenosis with anthracofibrosis usually involves multiple lobar or segmental bronchi. The main bronchus, however, tends to be preserved in anthracofibrosis. Most cases of endobronchial TB involve one lobar bronchus and the ipsilateral main bronchus with contiguity in extent.
Anthracofibrosis can be differentiated from endobronchial TB on CT. Furthermore, CT is helpful in the diagnosis of anthracofibrosis before bronchoscopy is performed. The purpose of this study was to use CT to differentiate anthracofibrosis from endobronchial tuberculosis (TB), both of which are major causes of benign bronchostenosis.OBJECTIVEThe purpose of this study was to use CT to differentiate anthracofibrosis from endobronchial tuberculosis (TB), both of which are major causes of benign bronchostenosis.We retrospectively reviewed the clinical and CT findings of 49 patients with anthracofibrosis and 35 patients with endobronchial TB diagnosed on the basis of bronchoscopic, microbiologic, and pathologic findings. Forty-five patients with anthracofibrosis and 32 patients with endobronchial TB had bronchostenosis on CT and were enrolled in the analysis. Nine (20%) of 45 patients with anthracofibrosis had coexistent active TB (two, endobronchial TB; six, pulmonary TB; one, TB pleurisy), and 13 (29%) had pulmonary infections other than TB. Two patients with anthracofibrosis and coexistent endobronchial TB were excluded from the analysis. The CT findings were analyzed with emphasis on the pattern, distribution, and location of bronchostenosis and the number of pulmonary lobes involved.MATERIALS AND METHODSWe retrospectively reviewed the clinical and CT findings of 49 patients with anthracofibrosis and 35 patients with endobronchial TB diagnosed on the basis of bronchoscopic, microbiologic, and pathologic findings. Forty-five patients with anthracofibrosis and 32 patients with endobronchial TB had bronchostenosis on CT and were enrolled in the analysis. Nine (20%) of 45 patients with anthracofibrosis had coexistent active TB (two, endobronchial TB; six, pulmonary TB; one, TB pleurisy), and 13 (29%) had pulmonary infections other than TB. Two patients with anthracofibrosis and coexistent endobronchial TB were excluded from the analysis. The CT findings were analyzed with emphasis on the pattern, distribution, and location of bronchostenosis and the number of pulmonary lobes involved.Anthracofibrosis was more common than endobronchial TB among elderly patients (p < 0.05). Statistically significant findings on CT were the pattern of bronchostenosis, presence of main bronchus involvement, and number of pulmonary lobes involved (p < 0.05). Bronchostenosis with anthracofibrosis usually involves multiple lobar or segmental bronchi. The main bronchus, however, tends to be preserved in anthracofibrosis. Most cases of endobronchial TB involve one lobar bronchus and the ipsilateral main bronchus with contiguity in extent.RESULTSAnthracofibrosis was more common than endobronchial TB among elderly patients (p < 0.05). Statistically significant findings on CT were the pattern of bronchostenosis, presence of main bronchus involvement, and number of pulmonary lobes involved (p < 0.05). Bronchostenosis with anthracofibrosis usually involves multiple lobar or segmental bronchi. The main bronchus, however, tends to be preserved in anthracofibrosis. Most cases of endobronchial TB involve one lobar bronchus and the ipsilateral main bronchus with contiguity in extent.Anthracofibrosis can be differentiated from endobronchial TB on CT. Furthermore, CT is helpful in the diagnosis of anthracofibrosis before bronchoscopy is performed.CONCLUSIONAnthracofibrosis can be differentiated from endobronchial TB on CT. Furthermore, CT is helpful in the diagnosis of anthracofibrosis before bronchoscopy is performed. OBJECTIVE. The purpose of this study was to use CT to differentiate anthracofibrosis from endobronchial tuberculosis (TB), both of which are major causes of benign bronchostenosis. MATERIALS AND METHODS. We retrospectively reviewed the clinical and CT findings of 49 patients with anthracofibrosis and 35 patients with endobronchial TB diagnosed on the basis of bronchoscopic, microbiologic, and pathologic findings. Forty-five patients with anthracofibrosis and 32 patients with endobronchial TB had bronchostenosis on CT and were enrolled in the analysis. Nine (20%) of 45 patients with anthracofibrosis had coexistent active TB (two, endobronchial TB; six, pulmonary TB; one, TB pleurisy), and 13 (29%) had pulmonary infections other than TB. Two patients with anthracofibrosis and coexistent endobronchial TB were excluded from the analysis. The CT findings were analyzed with emphasis on the pattern, distribution, and location of bronchostenosis and the number of pulmonary lobes involved. RESULTS. Anthracofibrosis was more common than endobronchial TB among elderly patients (p < 0.05). Statistically significant findings on CT were the pattern of bronchostenosis, presence of main bronchus involvement, and number of pulmonary lobes involved (p < 0.05). Bronchostenosis with anthracofibrosis usually involves multiple lobar or segmental bronchi. The main bronchus, however, tends to be preserved in anthracofibrosis. Most cases of endobronchial TB involve one lobar bronchus and the ipsilateral main bronchus with contiguity in extent. CONCLUSION. Anthracofibrosis can be differentiated from endobronchial TB on CT. Furthermore, CT is helpful in the diagnosis of anthracofibrosis before bronchoscopy is performed. |
| Author | Park, Seog Hee Park, Hyun Jin Im, Soo Ah Kim, Young Kyoon Lee, Kyo-young |
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| Cites_doi | 10.1097/00005792-200009000-00004 10.2214/ajr.184.3_supplement.01840s33 10.1378/chest.113.2.344 10.1378/chest.103.1.12 10.2214/ajr.169.3.9275870 10.4046/trd.2001.51.3.224 10.2214/ajr.174.2.1740523 10.3348/jkrs.2004.50.2.109 10.2214/ajr.168.4.9124114 |
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| Keywords | Infection Nuclear medicine Tuberculosis Radiodiagnosis Bacteriosis Radiology Medical imagery Computerized axial tomography Mycobacterial infection |
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| Snippet | The purpose of this study was to use CT to differentiate anthracofibrosis from endobronchial tuberculosis (TB), both of which are major causes of benign... OBJECTIVE. The purpose of this study was to use CT to differentiate anthracofibrosis from endobronchial tuberculosis (TB), both of which are major causes of... |
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| SubjectTerms | Adult Aged Aged, 80 and over Anthracosilicosis - diagnostic imaging Bacterial diseases Biological and medical sciences Bronchial Diseases - diagnostic imaging Diagnosis, Differential Female Human bacterial diseases Humans Infectious diseases Investigative techniques, diagnostic techniques (general aspects) Male Medical sciences Middle Aged Mycobacterium Radiography Radiotherapy. Instrumental treatment. Physiotherapy. Reeducation. Rehabilitation, orthophony, crenotherapy. Diet therapy and various other treatments (general aspects) Reproducibility of Results Sensitivity and Specificity Tuberculosis and atypical mycobacterial infections Tuberculosis, Pulmonary - diagnostic imaging |
| Title | CT Differentiation of Anthracofibrosis from Endobronchial Tuberculosis |
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